Secondary vector bundle structure

Generalized Context-free Grammar (GCFG) is a grammar formalism that expands on context-free grammars by adding potentially non-context free composition functions to rewrite rules.^[1] Head grammar (and its weak equivalents) is an instance of such a GCFG which is known to be especially adept at handling a wide variety of non-CF properties of natural language.

Description

A GCFG consists of two components: a set of composition functions that combine string tuples, and a set of rewrite rules. The composition functions all have the form ${\displaystyle f(\langle x_{1},...,x_{m}\rangle ,\langle y_{1},...,y_{n}\rangle ,...)=\gamma }$, where ${\displaystyle \gamma }$ is either a single string tuple, or some use of a (potentially different) composition function which reduces to a string tuple. Rewrite rules look like ${\displaystyle X\to f(Y,Z,...)}$, where ${\displaystyle Y}$, ${\displaystyle Z}$, ... are string tuples or non-terminal symbols.

The rewrite semantics of GCFGs is fairly straight forward. An occurrence of a non-terminal symbol is rewritten using rewrite rules as in a context-free grammar, eventually yielding just compositions (composition functions applied to string tuples or other compositions). The composition functions are then applied, reducing successively reducing the tuples to a single tuple.

Example

A simple translation of a context-free grammar into a GCFG can be performed in the following fashion. Given the grammar in (1), which generates the palindrome language ${\displaystyle \{ww^{R}:w\in \{a,b\}^{*}\}}$, where ${\displaystyle w^{R}}$ is the string reverse of ${\displaystyle w}$, we can define the composition function conc as in (2a) and the rewrite rules as in (2b).

1. ${\displaystyle S\to \epsilon ~|~aSa~|~bSb}$
2. 1. ${\displaystyle conc(\langle x\rangle ,\langle y\rangle ,\langle z\rangle )=\langle xyz\rangle }$
   2. ${\displaystyle S\to conc(\langle \epsilon \rangle ,\langle \epsilon \rangle ,\langle \epsilon \rangle )~|~conc(\langle a\rangle ,S,\langle a\rangle )~|~conc(\langle b\rangle ,S,\langle b\rangle )}$

The CF production of abbbba is

S

aSa

abSba

abbSbba

abbbba

and the corresponding GCFG production is

${\displaystyle S\to conc(\langle a\rangle ,S,\langle a\rangle )}$

${\displaystyle conc(\langle a\rangle ,conc(\langle b\rangle ,S,\langle b\rangle ),\langle a\rangle )}$

${\displaystyle conc(\langle a\rangle ,conc(\langle b\rangle ,conc(\langle b\rangle ,S,\langle b\rangle ),\langle b\rangle ),\langle a\rangle )}$

${\displaystyle conc(\langle a\rangle ,conc(\langle b\rangle ,conc(\langle b\rangle ,conc(\langle \epsilon \rangle ,\langle \epsilon \rangle ,\langle \epsilon \rangle ),\langle b\rangle ),\langle b\rangle ),\langle a\rangle )}$

${\displaystyle conc(\langle a\rangle ,conc(\langle b\rangle ,conc(\langle b\rangle ,\langle \epsilon \rangle ,\langle b\rangle ),\langle b\rangle ),\langle a\rangle )}$

${\displaystyle conc(\langle a\rangle ,conc(\langle b\rangle ,\langle bb\rangle ,\langle b\rangle ),\langle a\rangle )}$

${\displaystyle conc(\langle a\rangle ,\langle bbbb\rangle ,\langle a\rangle )}$

${\displaystyle \langle abbbba\rangle }$

Linear Context-free Rewriting Systems (LCFRSs)

Weir (1988)^[1] describes two properties of composition functions, linearity and regularity. A function defined as ${\displaystyle f(x_{1},...,x_{n})=...}$ is linear if and only if each variable appears at most once on either side of the =, making ${\displaystyle f(x)=g(x,y)}$ linear but not ${\displaystyle f(x)=g(x,x)}$. A function defined as ${\displaystyle f(x_{1},...,x_{n})=...}$ is regular if the left hand side and right hand side have exactly the same variables, making ${\displaystyle f(x,y)=g(y,x)}$ regular but not ${\displaystyle f(x)=g(x,y)}$ or ${\displaystyle f(x,y)=g(x)}$.

A grammar in which all composition functions are both linear and regular is called a Linear Context-free Rewriting System (LCFRS), a subset of the GCFGs with strictly less computational power than the GCFGs as a whole, which is weakly equivalent to multicomponent Tree adjoining grammars. Head grammar is an example of an LCFRS that is strictly less powerful than the class of LCFRSs as a whole.

References

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